A fusion night vision system has an optical element coupled to a display for improving the performance and viewability of images through a fusion night vision device while reducing overall system cost. The display producing a scene image from an image detector. The optical element has a flat input surface and a curved output surface. The curved output surface shaped to match an output surface of an image intensifier tube. The output from the display and the image intensifier being combined in an image combiner before entering an eyepiece for presentation to an operator as a fused image.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A fusion night vision system, comprising: a housing; an image intensifier for processing information in a first range of wavelengths, the image intensifier having a first curved output image surface; an image detector for processing information in a second range of wavelengths; a display for displaying processed information from the image detector; an image combiner for combining the output from the image intensifier with the output of the image detector; and an optical element aligned with the display and an input to the image combiner, the optical element having a generally flat input surface and a curved output surface.
2. The fusion night vision system of claim 1 , wherein the image intensifier is optically aligned with the image combiner and an eyepiece to enable direct viewing of a scene by an operator and the image detector is optically aligned with an objective focus.
3. The fusion night vision system of claim 1 , further comprising an eyepiece optically aligned with the optical image combiner to enable an operator to view a fused image from the image intensifier and the image detector.
4. The fusion night vision system of claim 1 , wherein the first range of wavelengths is approximately 400 nm to approximately 900 nm and the second range of wavelengths is approximately 7,000 nm to approximately 14,000 nm.
5. The fusion night vision system of claim 1 , wherein the image detector is a selected one of a focal plane array, a digital image intensification tube, a near infrared electron bombarded active pixel sensor, a short wave InGaAs array, a charged couple device, and a CMOS detector.
6. The fusion night vision system of claim 1 , wherein the shape of the output surface of the optical element is shaped to match the first curved output surface of the image intensifier.
7. The fusion night vision system of claim 1 , wherein the shape of the output surface of the optical element is shaped to provide for a clear fused image at an eyepiece as the eyepiece is moved towards and away from the image combiner.
8. The fusion night vision system of claim 7 , further wherein the shape of the output surface of the optical element is shaped to maintain image registration over the full range of viewing positions.
9. The fusion night vision system of claim 1 , wherein the optical element is coupled to the display.
10. A fusion night vision system, comprising: a housing; an image intensifier for processing information in a first range of wavelengths, the image intensifier having a first curved output image surface; an image detector for processing information in a second range of wavelengths; a display for displaying processed information from the image detector; an image combiner for combining the output from the image intensifier with the output of the image detector; and an optical element aligned with the display and an input to the image combiner, the optical element having a generally flat input surface and a curved output surface, wherein the radius of curvature of the optical element is the same radius of curvature as the first curved output image surface of the image intensifier.
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March 14, 2013
September 29, 2015
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